电动汽车电动轮结构设计与研究开题报告
2020-04-12 16:00:50
1. 研究目的与意义(文献综述)
1、Objective and significance of the design
Electric vehicle becomes more and more popularbecause of its no pollution. The growing popularity of hybrid and electric carshas revived interest in replacing a single internal combustion engine within-wheel electric motors, a technology that many think of as a recent idea butone that has been around for more than a century. The electric car’s powersystem lies in the wheels, providing more inner space available for users. Thevehicle driven by in-wheel motor, withits unique advantages, will become an important field of research anddevelopment of electric vehicle. However, moving the power system from the bodyto the wheels brings a problem to the placement in the wheel; further more, thewheel mass will increase, the mass ratio of the body to wheel will decrease bythe mounting of power system, thus decreasing the car smoothness, increasingdynamic load of wheels, decreasing road friendly and driving security, causingvertical negative effect problems to the car.
I want to work for electric wheel drive type because of its simplevehicle structure, high efficiency transmission dynamic efficiency and the direct control of electricwheels by modern computer control technology. It is a unique direction forthe development of electric vehicles. My thesis mainly studies ‘StructuralDesign and Analysis of High-speed Electric Wheel’. The vehicle driven byin-wheel motor, with its unique advantages, will become an important field of research and developmentof electric vehicle.
1.1Overseas Research Status
Year | Research results | Writer |
2003 | The radial, lateral, andtangential stiffness of spoked bicycle wheels depends upon the rim's bendinginertia, torsional inertia, the spoke sizes, and the spoke geometry. Thespokes of three rear bicycle wheels of different spoke patterns wereinstrumented with strain gauges in order to investigate the effect of thespoke pattern on the spoke strain and fatigue resistance properties of thewheels. Spoke strains due to radial loads were measured in the laboratory.[1]. | H. P. Gavin |
2005 | The rotor, supported by hydrostatic journal and thrust gas bearings,is driven by an air turbine. This turbomachinery/bearing test device wasfabricated from single-crystal silicon wafers using micro-fabrication etchingand bonding techniques.[2] . | J. Lian, Y. Zhou, T. Ma,and W. Wang |
2013 | . Processing features andturning mechanism about micro-parts are studied in order to propose turningmethod about symmetrical processing with multiple-tool. Software CATIA isused to generate three-dimensional solid model for the overall layoutstructure of high speed miniature lathe, while finite element analysissoftware is used to achieve dynamic performance analysis, so as to obtaineach factorial of machine-tool vibration and natural frequency [3]. | W. Wang and G. Li |
2002 | The design, construction, and test of ahigh-speed synchronous homopolar motor/alternator, and its associated highefficiency six-step inverter drive for a flywheel energy storage system arepresented in this paper. The work is presented as an integrated design ofmotor, drive, and controller. The performance goal is for power output of 30kW at speeds from 50 kRPM to 100 kRPM [4]. | P. Tsao, M. Senesky, and S.R. Sanders |
2013 | Processing features and turning mechanism about micro-parts arestudied in order to propose turning method about symmetrical processing withmultiple-tool. Software CATIA is used to generate three-dimensional solidmodel for the overall layout structure of high speed miniature lathe, whilefinite element analysis software is used to achieve dynamic performanceanalysis, so as to obtain each factorial of machine-tool vibration andnatural frequency [5]. | H. D. Yu, L. M. Wang, X. Z.Li, J. K. Xu, and Q. Y. Shi |
2011 | According to structural characteristics ofthe China Railway Track System (CRTSII) slab track system, a model fordynamic analysis of vehicle-track-subgrade coupling system has beendeveloped. Based on the model, a new type of slab track element is presented,and the associated stiffness matrix, mass matrix and damping matrix for theelement are deduced. This element includes rail, rail fastening and pad,prefab slab, cement-asphalt mortar, hydraulically bonded layer, and subgrade.By means of the Lagrange equation, a numerical method for coupling the movingwheel and the rail with explicit formula is presented and the associatedfinite-element equation is formulated [6]. | X. Lei and B. Zhang |
2015 | Firstly, the integrated controller module inelectric vehicle is investigated, in which the front axle is refitted for twoin-wheel motors. Secondly, genetic algorithm is used to optimize the controldecision-making rules of fuzzy controller. Thereafter, the built model isembedded in veDYNA development environment with an offline simulation test ofdriver/vehicle/road closed-loop system. At last, control strategy, which hasbeen compiled and downloaded to Mirco AutoBox controller prototype, is usedfor the real vehicle experimental analysis and validation of the proposedcontroller. Both simulation and experimental results demonstrate that thecontroller can improve the yaw motion and reduce the slip angle of vehicle [7]. | Q. Li, X. Yu, H. Zhang, andR. Huang |
2012 | AFPM motor is a high-torque-density motor easily mounted compactlyonto a vehicle wheel, fltting the wheel rim perfectly. A preliminary designis a double-sided slotted AFPM motor with 6 rotor poles for hightorque-density and stable rotation. In determining the design requirements, asimple vehicle-dynamics model that evaluates vehicle performance through thetypical cruising trip of an automobile was considered. Results of the FEAsimulation were compared with those obtained from the sizing equation; atno-load condition, the ∞ux density at every part of the motor agreed. Themotor's design meets all the requirements and limits of EV, and flts theshape and size of a classical-vehicle wheel rim. The design process iscomprehensive and can be used for an arbitrary EV with an arbitrary cruisingscenario [8]. | A. Mahmoudi, N. A. Rahim,and H. W. Ping |
2015 | The operation principle of the PMBECU isillustrated. Then, the basic magnetic circuit model is presented andanalyzed, followed by optimal design of the main structural parameters byinvestigating the PM leakage flux coefficient. Further, according to thebasic electromagnetic characteristics of the PMBECU, the current pulse supplyis put forward, and the minimum pulse width which enables the operation ofthe PMBECU and its dynamic characteristics are analyzed by an improved finiteelement method. Finally, a prototype machine is manufactured and tested tovalidate all the analysis results [9]. | W. Cai, C. Gu, and X. Hu |
2002 | Analysis was made to combine the modeling efforts with the expectedbehavior concerned with mutual inductance and armature reaction effects, soas to have realistic simulation results verified by the experimental setup.Comprehensive experimental results corroborate the work [10]. | M. G. Simoes and P. Vieira |
1.2Domestic Research Status
2013 | The most basic function of the brakedisc is to absorb the braking kinetic energy and transform it into heatenergy, and to discharge it into the air.The steel brake disc was used inhigh speed trains since 1980s. Forged steel with high strength and toughness(MPa = 800), but also has high thermal cracking resistance, good wearresistance and thermal fatigue resistance, long life etc. With the continuousprogress of casting technology, the casting technology is becoming more andmore important [11]. | 李继山, 刘涛, 李和平, 焦标强, 陈德峰, 顾磊磊,et al. |
2012 | CAN bus is acommunication protocol developed by German BOSCH company in the early 1980sto solve the data exchange between control and test instruments inautomobiles. Because the communication between the components of thepure electric vehicle platform is more. If the body wiring harness is usedsimply, it will inevitably lead to the wiring harness, which brings somedifficulties to vehicle layout and fault diagnosis. The CAN bus network cansolve these problems well [12]. | 张军 |
2013 | The relationship between the head shape and aerodynamic performance of highspeed train, the greater the speed of the train, the greater the impact ofthe aerodynamic drag. The most obvious is the increase of aerodynamic dragand the intensification of the pressure wave during the train intersection,and the shape of the head of the train plays a decisive role in theaerodynamic performance of the train. The flow - to - solid relationshipbetween the air - train and the air train is one of the most important performanceindicators to be considered in the shape design of the high-speed train [13]. | 王添旗 |
2013 | Electronic Differential System(EDS) is to control the speed of each wheel completely by electronic control,so that the wheel is rotated at different speeds. The hub motor hascompletely changed the traditional way of driving the car, motor installed inthe wheel hub, the motor rotor is the outer rotor, the output torque of thedirect transmission to the wheels, abandoning the traditional clutch,reducer, drive axle differential, and other components, the vehicle weight,reduce the mechanical transmission loss, and flexible driving characteristics. The EDS steering systemchanges the speed of the wheel by adjusting the speed of the motor to achievea differential steering. When the electric vehicle needs to turn, the insidecar is turned [14]. | 董铸荣, 贺萍, 梁松峰, and 邱浩 |
2014 | The traditional vehicle driving isthe prime mover after mechanical transmission is sent to the wheels, whichgenerally includes a plurality of forward gear transmission and a reversegear, with a fixed ratio of the main reducer, and to maintain goodrelationship between the left and right wheels differentialt power control for each wheel, andgreatly improve the performance of the field environment and the ice and snowpavement. Theelectric wheel has long been in a large mine dump truck.[15] | 王秉刚 |
2. 研究的基本内容与方案
2、basic contents and technical solutions
2.1 the basic contents and objectives of the design:
(1) research status of electric wheel at home and abroad
3. 研究计划与安排
- At the end of the seventh semester, determine the design topic.
- From the first week to the fourth week, collect the relevant technical reference and materials according to the selected topic, and complete the thesis Proposal, reference translation, and literature search.
- Week 5, install the required software, configure the system, familiar with the development environment, be ready for development.
- From week 6 to week 7, complete the design of the system database.
- From week 8 to week 13, finish the design and coding of the system interface, complete the overall system design, including programming, database connection, the final test of the system, the system problem modification.
- Week 14, writing graduation thesis.
- Week 15, modify the first draft of the thesis, and prepare the graduation design defense.
4. 参考文献(12篇以上)
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[1] h. p. gavin, "bicycle-wheel spokepatterns and spoke fatigue," journalof engineering mechanics-asce, vol. 122, pp. 736-742, 1996.